/**
* Description not yet available.
* \param
*/
dvar_matrix operator*(const dvar_matrix& m1, const dvar_matrix& m2)
{
if (m1.colmin() != m2.rowmin() || m1.colmax() != m2.rowmax())
{
cerr << " Incompatible array bounds in "
"dmatrix operator*(const dmatrix& x, const dmatrix& m)\n";
ad_exit(21);
}
//dmatrix cm1=value(m1);
//dmatrix cm2=value(m2);
dmatrix tmp(m1.rowmin(),m1.rowmax(), m2.colmin(), m2.colmax());
double sum;
for (int j=m2.colmin(); j<=m2.colmax(); j++)
{
dvector m2col=column_value(m2,j);
for (int i=m1.rowmin(); i<=m1.rowmax(); i++)
{
sum=value(m1(i))*m2col;
tmp(i,j)=sum;
}
}
dvar_matrix vtmp=nograd_assign(tmp);
save_identifier_string("TEST1");
m1.save_dvar_matrix_value();
m1.save_dvar_matrix_position();
m2.save_dvar_matrix_value();
m2.save_dvar_matrix_position();
vtmp.save_dvar_matrix_position();
save_identifier_string("TEST6");
gradient_structure::GRAD_STACK1->
set_gradient_stack(dmdm_prod);
return vtmp;
}
T get(int column) const
{
typename converter<T>::base_type t;
column_value(column, t);
return converter<T>::to(t);
}
int detect_char (IplImage *img,int *lines_number,int line_numbers_size,
struct rect_char *chars,struct rect_char **ptr)
{
// detection space
int white = 0;
int first_char = 0;
int i,x,x1,x2,x3,mem_x1,mem_x2,c=0,white_ref;
for (i=0;i< line_numbers_size;i= i+2)
{
mem_x1 = -1;
mem_x2 = -1;
white = 0;
first_char = 0;
white_ref = 0.18 * (lines_number[i+1]-lines_number[i]);
if (white_ref >10)
white_ref = 10;
for(x=1 ; x < img->width-1; x++)
{
x1 = column_value(lines_number[i],lines_number[i+1],x-1,img);
x2 = column_value(lines_number[i],lines_number[i+1],x,img);
x3 = column_value(lines_number[i],lines_number[i+1],x+1,img);
if (x2 == 0 && x1 == 1)
{
mem_x2=x;
}
if(mem_x2 != -1 && mem_x1 != -1)
{
if (c != 0)
chars = realloc_r(ptr,(c+1)*sizeof(struct rect_char));
chars[c].y = lines_number[i];
chars[c].x = mem_x1;
chars[c].width = mem_x2 - mem_x1;
chars[c].height = lines_number[i+1] - lines_number[i];
c++;
if (white > white_ref && c>0 && first_char == 1 )
{
chars = realloc_r(ptr,(c+1)*sizeof(struct rect_char));
chars[c].y = lines_number[i];
chars[c].x = chars[c-2].x +chars[c - 2].width +2;
chars[c].width = white -3;
chars[c].height = lines_number[i+1]-lines_number[i];
c++;
}
white =0;
first_char = 1;
mem_x2 = -1;
mem_x1 = -1;
}
if( x1 == 0 && x2 ==0 && x3 ==0)
{
white ++;
}
if (x2 == 0 && x3 == 1 )
{
mem_x1 = x;
}
}
}
return c;
}
static void
end2_tag (void *data, const char *el)
{
/* GML element ending [Pass II] */
struct gml_params *params = (struct gml_params *) data;
if (strcmp (el, "gml:featureMember") == 0)
{
params->is_feature = 0;
return;
}
if (strcmp (el, "gml:featureMembers") == 0)
{
params->is_feature = 0;
return;
}
if (strcasecmp (el, "gml:Point") == 0)
{
params->is_point = 0;
*(params->CharData) = '\0';
params->CharDataLen = 0;
return;
}
if (strcasecmp (el, "gml:MultiPoint") == 0)
{
params->is_multi_point = 0;
*(params->CharData) = '\0';
params->CharDataLen = 0;
return;
}
if (strcasecmp (el, "gml:LineString") == 0)
{
params->is_linestring = 0;
*(params->CharData) = '\0';
params->CharDataLen = 0;
return;
}
if (strcasecmp (el, "gml:MultiLineString") == 0)
{
params->is_multi_linestring = 0;
*(params->CharData) = '\0';
params->CharDataLen = 0;
return;
}
if (strcasecmp (el, "gml:Polygon") == 0)
{
polygon_set_up (params);
clean_polygon (params);
params->is_polygon = 0;
*(params->CharData) = '\0';
params->CharDataLen = 0;
return;
}
if (strcasecmp (el, "gml:MultiPolygon") == 0)
{
params->is_multi_polygon = 0;
*(params->CharData) = '\0';
params->CharDataLen = 0;
return;
}
if (strcasecmp (el, "gml:MultiSurface") == 0)
{
params->is_multi_polygon = 0;
*(params->CharData) = '\0';
params->CharDataLen = 0;
return;
}
if (strcasecmp (el, "gml:outerBoundaryIs") == 0)
{
params->is_outer_boundary = 0;
*(params->CharData) = '\0';
params->CharDataLen = 0;
return;
}
if (strcasecmp (el, "gml:exterior") == 0)
{
params->is_outer_boundary = 0;
*(params->CharData) = '\0';
params->CharDataLen = 0;
return;
}
if (strcasecmp (el, "gml:innerBoundaryIs") == 0)
{
params->is_inner_boundary = 0;
*(params->CharData) = '\0';
params->CharDataLen = 0;
return;
}
if (strcasecmp (el, "gml:interior") == 0)
{
params->is_inner_boundary = 0;
*(params->CharData) = '\0';
params->CharDataLen = 0;
return;
}
if (params->is_feature)
check_end2_fid (params, el);
if (params->is_fid)
{
*(params->CharData + params->CharDataLen) = '\0';
column_value (params, el);
}
if (strcasecmp (el, "gml:coordinates") == 0)
parse_coords_1 (params);
if (strcasecmp (el, "gml:posList") == 0 || strcasecmp (el, "gml:pos") == 0)
parse_coords_2 (params);
}
